Page 1 ADT Security Services, Inc. 1750 Clint Moore Road Boca Raton, FL 33431 (561) 988-3600 Installation Manual 31 $ (&1 ...
Page 3 Addressable Modules .....................1-12 Overview ......................1-12 Module Descriptions ....................1-12 End-of-Line Devices ....................1-13 Annunciation Modules ...................1-14 Overview ......................1-14 ADT-LDM Series Lamp Driver Modules............1-14 Annunciator Control System (ACS) ..............1-15 Annunciator Fixed Modules.................1-15 Peripheral Displays and Printers ................1-16 Overview ......................1-16 ADT-LCD-80 Display ..................1-16 PRN-4 Remote Printer ..................1-16 Keltron Remote Printer (Model VS4095) ............1-16...
Page 4: Table Of Contents
System Power Connections ................2-14 Installing Expander Row Ribbon Cables for Panel Modules Installing Row Ribbon Cables for ADT-CAB-B3 – ADT-CAB-D3 Cabinets ..2-15 Installing Row Ribbon Cables for ADT-CAB-C3 and ADT-CAB-D3 Cabinets 2-16 Installing Row Ribbon Cables for an ADT-CAB-400AA Cabinet......2-17 Installing the CPU Installing the CPU into a Chassis.................2-18...
Page 5 Mounting Panel Modules (CRM-4, ICM-4, VCM-4) onto a Chassis....2-21 Installing a 4XTM Module (Remote Station Fire Alarm) Mounting the Module...................2-22 4XTM Electrical Requirements ................2-22 Connecting the 4XTM Module ................2-23 Installing an ADT-UZC-256 Module Overview......................2-24 ADT-CAB-X3 Installation ................2-24 ADT-CAB-400AA Installation................2-24 Field-Wiring the Modules Notification Appliance Circuit (NAC) Wiring ............2-25...
Page 6 SLC Wiring with an Intelligent Detector .............2-60 Overview for Wiring Intelligent Detectors ............2-60 Wiring a B501B Detector to an SLC Loop............2-60 SLC Wiring with an ADT-BGX-101L Addressable Manual Pull Station...2-61 ADT-BGX-101L Overview ................2-61 ADT-BGX-101L Wiring Connections ............2-61 Acceptance Test ......................3-1 Periodic Testing and Service ...................3-1...
Page 7 7DEOH RI &RQWHQWV 4. Voice Alarm System Mounting an AA-100/AA-120.................4-12 AA-100/AA-120 Terminals and Connectors ...........4-13 Installing a Backup Amplifier ................4-14 Overview......................4-14 Typical Installation Drawing ................4-14 Voice Alarm Modules Overview ......................4-15 Module Descriptions ....................4-15 Connecting VCM-4 Speaker Circuits ..............4-16 Overview......................4-16 VCM-4 Speaker Wiring Diagram..............4-16 Connecting VCM-4 Telephone Circuits ..............4-17 Wiring Diagram ....................4-17 Setting the VCM-4 to Speaker or Telephone Mode ........4-18...
Page 8 Combination Fire/Security Applications/Security Applications Overview ........................5-8 General Operation ....................5-8 Installing a Security Tamper Switch ..............5-8 Installing a Security Tamper Switch into the ADT-CAB-400AA....5-8 Installing a Security Tamper Switch into the ADT-CAB-X3......5-9 Programming......................5-9 Wiring for Proprietary Security Alarm Applications...........5-10 Universal Zone Coder (ADT-UZC-256) ADT-UZC-256 Description .................5-11...
Page 9 ADT-LCD-80 ACS Mode EIA-485 Connection (CPU, TB4)......A-14 Connection Guidelines..................A-14 Connecting ADT-LCD-80s in ACS Mode ............. A-14 Powering ADT ACS-, LDM-, ACM-, and LCD-type Annunciators ....A-15 Overview......................A-15 Power Connections ..................A-15 Power Connections for ADT-LCD-80 Annunciators ........A-15 ADT-ACS and ADT-LDM Series EIA-485 Connection ........
Page 10 7DEOH RI &RQWHQWV Appendix D: CRT-2 Configuration Overview ....................... D-1 Setting CRT-2 Parameters..................D-1 Uploading or Downloading the Operating Program ..........D-2 General Description....................E-1 Operating Modes Local Terminal Mode (LocT) ................E-1 Local Monitor Mode (LocM)................E-2 Remote Terminal Mode (RemT) ..............E-3 Using the CRT-2 for Read Status Overview .......................
Page 11 6WDQGDUGV DQG 2WKHU 'RFXPHQWV Standards NFPA 12 CO2 Extinguishing Systems This Fire Alarm Control Panel complies with the fol- NFPA 12A Halon 1301 Extinguishing Systems lowing NFPA standards: NFPA 12B Halon 1211 Extinguishing Systems NFPA 13 Sprinkler Systems NFPA 15 Water Spray Systems NFPA 16 Foam/Water Deluge and Foam/Water Spray Systems NFPA 17 Dry Chemical Extinguishing Systems NFPA 17A Wet Chemical Extinguishing Systems...
Page 12 Table 1 contains a list of other documents that are related to the control panel: Document Title Document Number The ADT-LDM Series Annunciator A15885 The ADT-LCD-80 Liquid Crystal Display A15037 The Device Compatibility Document A15378 The ADT-NIB-96 Network Interface Board...
Page 13 This section lists ADT, Notifier, and System Sensor equipment that is compatible with the control panel. Also, refer to the Device Compatibility Document for compatible equipment. Table 2 contains a list of ADT equipment that is compatible with the control panel: ADT-ABF-1 Annunciator Flush Box ADT-CAB-400AA AA-size cabinet...
Page 14 FFT-7S Fire Fighters Telephone RPT-485W EIA-485 Repeater (Wire) FHS Fireman's Handset RPT-485WF EIA-485 Repeater (Wire/Fiber) L20-300-BX Enclosure; recessed mount TR-500 Trim Ring for ADT-CAB-400AA L20-310-BX Enclosure; surface mount UDACT Universal Digital Alarm Communicator N-ARA-10 Agent Release pull station Transmitter N-ELR Assortment ELR pack with mounting...
Page 15 This manual contains information for designing, installing, and testing the 1RWH 7KURXJKRXW WKLV PDQXDO Unimode 400 Multi-Net Fire Alarm Control Panel and fire alarm system components. ´FRQWURO SDQHOµ UHIHUV WR D 8QLPRGH 0XOWL1HW FRQWURO Table 1-1 contains a list of document sources for supplemental information: SDQHO DQG &38 UHIHUV WR DQ...
Page 16 • Autoprogram feature for faster programming of new devices. • Optional ADT-LCD-80 allows monitoring and controlling the system—up to 6,000 feet from the control panel. The control panel provides 6.0 amps of usable output power (standard). System expansion must comply with: The physical limitations of the cabinet configuration.
Page 17 Introduction 6\VWHP 2YHUYLHZ Figure 1-1 shows a Unimode 400 Multi-Net system installed in an ADT-CAB-C3 with a voice alarm system and a full complement of installed devices. 6/& ,QWHOOLJHQW /RRS 'HYLFHV 00 0&+ ;3 7UDQVSRQGHU $'7%*;/...
Page 18 25 AH requires BB-55 or (MPS-400) other UL-listed battery cabinet.) ADT-CAB-400AA 12 AH (17 AH with BB-17) ADT-CAB-A3 through 25 AH (55 AH with BB-55) ADT-CAB-D3 Table 1-3 Battery Specifications Table 1-4 contains specifications for an SLC: 1RWH 5HIHU WR $SSHQGL[ % IRU...
Page 19 Specifications 6\VWHP 2YHUYLHZ Table 1-5 contains specifications for NACs and releasing circuits available on the MPS-400: Item Value Maximum wiring voltage drop 2 VDC (except M500CH which is 1.2 VDC) Normal operating voltage 24 VDC Current for all external devices 6.0 A (except devices powered from the AVPS-24 or connected to MPS-400 AA-30 and AA-120, or FCPS-24)
Page 20 Specifications 6\VWHP 2YHUYLHZ There are two power-limited circuits available to power external devices, such as 1RWH 7KH 036 SURYLGHV D notification appliances and annunciators. Refer to the Device Compatibility Document WRWDO RI $ RI SRZHU VKDUHG E\ DOO LQWHUQDO PRGXOHV DQG for compatible devices and notification appliances.
Page 21 400AA supports one output option module, and includes an MPS-400RB and transformers. Order ADT-CAB-400AA cabinets separately. The ADT-CPU provides LED indicators and operational switches. The panel is visible with the cabinet door closed, except for programming switches, which are located behind a flip-down door.
Page 22 System Components 6\VWHP 2YHUYLHZ The control panel can use two types of internally mounted power supplies: the MPS-400 main power supply and an optional Audio Visual Power Supply (AVPS-24). The MPS-400 supplies a total of 6 A in alarm, used for the 036 UHTXLUHG following: (a) powering Unimode 400 modules;...
Page 23 )LJXUH 0365% 8VLQJ 7ZR 9$ 7UDQVIRUPHUV The ADT-CAB-400AA cabinet provides space for two 12 ampere-hour (AH) batteries. ADT-CAB-X3 cabinets provide space for two 25 AH (or smaller) batteries. Use external battery boxes if your installation requires larger capacity batteries. Battery boxes mount directly below the main cabinet.
Page 24 Trim Ring A gray trim ring is available for semi-flush mounting of the ADT-CAB-X3 Series cabinet. ADT-UZC-256 Universal An ADT-UZC-256 module is a circuit board—used for NAC Zone Coder coding applications—that provides three output circuits and up to 256 zone codes.
Page 25 Intelligent Detectors (System Sensor) 6\VWHP 2YHUYLHZ Intelligent, addressable detectors provide analog information to the control panel. This allows the control panel to continually process this information to determine the status of each detector (alarm, trouble, maintenance, or normal). Each detector responds to an address that is set in the detector head using built-in rotary decimal switches.
Page 26 The remainder of the communications loop leading up to the M500X continues to operate, unaffected by the fault. ADT-BGX-101L A dual action addressable manual pull station featuring a key-lock reset. The pull station includes an M501M and responds to an address set with built-in rotary decimal switches.
Page 27 End-of-Line Devices 6\VWHP 2YHUYLHZ Table 1-10 contains a list of the end-of-line devices that you can install in a Unimode 400 system: Option Description Notes A2143-00 A 47K End-Of-Line Resistor Supplied with M500M or (System Sensor) (ELR) Assembly ELR used in the M500CH modules.
Page 28 The ADT-LDM-32 Lamp Driver Annunciator Module provides 32 alarm lamp driver outputs for connection to a custom graphic annunciator. You can also set the ADT-LDM-32 with a DIP switch for 16 alarm, 16 trouble and 16 switch inputs for control of such system functions as Signal Silence and System Reset.
Page 29 ADT-AFMs turn their LEDs on and off as directed by the CPU, and also report switch activations to the CPU for action. You can only use one ADT-AFM in a system. Each annunciator’s address is fixed at address 1.
Page 30 • CRT-2 Display Terminal For installation instructions for these devices, refer to Section 2. The ADT-LCD-80 alphanumeric display module is a Unimode 400 ancillary device that acts as an alphanumeric annunciator. The ADT-LCD-80 features the following: • 80-character liquid crystal display that backlights under normal and alarm conditions.
Page 31 Notification Circuit and Control Modules 6\VWHP 2YHUYLHZ The control panel supports the following notification and control modules: • Indicating Circuit Module (ICM-4) • Indicating Circuit Expander (ICE-4) • Control Relay Module (CRM-4) • Control Relay Expander (CRE-4) • Auxiliary Relay Module (ARM-4) Table 1-12 contains descriptions of the notification circuit and control modules that can be used with the control panel: $X[LOLDU\ %HOO 3RZHU &DEOH...
Page 32 Voice Alarm Equipment 6\VWHP 2YHUYLHZ Voice Alarm equipment provides a manual or automatic supervised paging system for transmitting voice messages (information, instructions, directions) on a selective or all call basis. For more details, refer to Section 4, Voice Alarm System. The heart of a voice evacuation system, the Audio Message Generator (AMG-1) provides a variety of tones, including a slow whoop, yelp, siren, hi/lo, or steady tone.
Page 33 The CHS-4M contains expansion modules that extend beyond the first row in the ADT-CAB-X3 cabinet. One CHS-4M is needed for each additional row of system modules. The CHS-4M includes the CHS-4 Chassis, the MP-1 Module Dress Panel, and the Expander Row Ribbon Cable.
Page 34 Cabinet Hardware 6\VWHP 2YHUYLHZ This section contains mounting information for ADT-CAB-X3 Series Cabinets. Each 2YHUYLHZ cabinet assembly includes a door and backbox. The following lists each ADT-CAB-X3 Series cabinet assembly: • ADT-CAB-A3 – one mounting tier • ADT-CAB-B3 – two mounting tiers •...
Page 35 An optional TR-C3N trim ring is available for use with a C-size cabinet (24-1/8"W by % 39-7/16"H). Replacement parts: ADT-DR-C3 door; SBB-C3 backbox. )LJXUH $'7&$%& 0RXQWLQJ 'LPHQVLRQV An optional TR-D3N trim ring is available for use with a D-size cabinet (24-1/8"W by % 48-3/16"H).
Page 36: Adt-Cab-C3
The ADT-CAB-400AA is a backbox and door that can contain a small Unimode 400 $'7&$%$$ system. (A small system supports up to twelve NACs and consists of an ADT-CPU and 2YHUYLHZ one option module, such as an ICM-4/ICE-4.) Modules mount to rails in the ADT-CAB-400AA, eliminating the need for optional chassis assemblies.
Page 37 Cabinet Hardware 6\VWHP 2YHUYLHZ Unimode 400 Installation PN 50710:A 10/22/97 1-23...
Page 38 1-24 Unimode 400 Installation PN 50710:A 10/22/97...
Page 39: Preparing For Installation
Preparing for Installation ,QVWDOODWLRQ Unpack the system as follows: 8QSDFNLQJ WKH 6\VWHP Step Action Carefully unpack the system and inspect for shipping damage. Select a location for the control panel in a clean, dry, vibration-free area with moderate temperature. %HIRUH LQVWDOOLQJ WKH ILUH DODUP V\VWHP UHDG WKH IROORZLQJ •...
Page 40: Installation Checklist
(ADT-CAB-X3 Series Cabinets)" on page 2-6. Mount the SBB-X3 or CAB-400AA backbox to "Mounting a Backbox (SBB-X3 the wall. and ADT-CAB-400AA)" on page 2-7. Mount the MPS-400 to the backbox. "Mounting an MPS-400 Power Supply" on page 2-8. If using additional power supplies, mount to the "Mounting an Optional AVPS-24...
Page 41 Installation Checklist ,QVWDOODWLRQ Task Refer to... Field-wire each module. "Field-Wiring the Modules" on page 2-25. Install optional peripheral devices, such as a "Installing Remote Printers and printer, personal computer, or CRT-2 terminal. CRTs" on page 2-35. Wire the Signaling Line Circuits. "Wiring a Signaling Line Circuit (SLC)"...
Page 42: Installing A Cabinet Door
Installing a Cabinet Door ,QVWDOODWLRQ Cabinet doors mount in a left- or right-hand opening configuration, providing easier access for installation and service when two control panels are mounted in a confined area or side-by-side (as shown in Figure 2-1). The doors can be opened barn door style, creating an open work space.
Page 43 Installing a Cabinet Door ,QVWDOODWLRQ Figure 2-3 shows how to mount a bottom hinge on a door: ,QVWDOOLQJ D %RWWRP +LQJH %RWWRP /HIW &RUQHU 6WDU ZDVKHU +LQJH $ 6WXG % )LJXUH ,QVWDOOLQJ D %RWWRP +LQJH Install the door alignment tabs (C) in the unused slots on the top and bottom of the backbox.
Page 44: Installing A Chassis (Adt-Cab-X3 Series Cabinets)
,QVWDOODWLRQ This section contains instructions for installing a CHS-4 chassis (Figure 2-6) and a CHS-4L chassis (Figure 2-7) into an ADT-CAB-X3 cabinet. To install a CHS-4 chassis, follow these instructions: Place the CHS-4 chassis over the screw mounts on the cabinet.
Page 45: Mounting A Backbox (Sbb-X3 And Adt-Cab-400Aa)
Mounting a Backbox (SBB-X3 and ADT-CAB-400AA) ,QVWDOODWLRQ This section provides instructions for mounting an SBB-X3 or ADT-CAB-400AA backbox. Follow these guidelines when mounting a backbox: &DXWLRQ 8QOHVV \RX DUH IDPLOLDU ZLWK WKH SODFHPHQW RI FRPSRQHQWV ZLWKLQ WKLV EDFNER[ RQO\ XVH WKH NQRFNRXW ORFDWLRQV SURYLGHG IRU FRQGXLW HQWU\ •...
Page 46: Mounting An Mps-400 Power Supply
Mounting an MPS-400 Power Supply ,QVWDOODWLRQ This section contains instructions for mounting an MPS-400 into an ADT-CAB-X3 (Figure 2-9 and Figure 2-10) and for mounting an MPS-400 into an ADT-CAB-400AA (Figure 2-11). The MPS-400 mounting assembly consists of the MPS-400 module attached to mounting chassis.
Page 47 Mount the two 100VA transformer assemblies to the cabinet using the five mounting nuts and lockwashers. Connect the transformer assembly wires to plugs P1 and P2 on the MPS-400RB PC board. Figure 2-11 shows how to mount an MPS-400 to an ADT-CAB-400AA cabinet: $'7&$%$$ PRXQWLQJ VFUHZV 036...
Page 48: Mounting An Optional Avps-24 Power Supply
Mounting an Optional AVPS-24 Power Supply ,QVWDOODWLRQ You can mount an AVPS-24 into an ADT-CAB-X3 series cabinet (on a CHS-4 or CHS-4L chassis) or in the upper right corner of an ADT-CAB-400AA. A CRM-4, a ICM-4, a DCM-4, or a VCM-4 can mount above the AVPS-24 as long as you do not use an expander module (CRE-4, ICE-4, or VCE-4).
Page 49: Installing An Auxiliary Relay Module (Arm-4)
Installing an Auxiliary Relay Module (ARM-4) ,QVWDOODWLRQ The ARM-4 module can be driven by a CRM-4 or a CRE-4. Each ARM-4 can support one CRM-4 or one CRE-4. If using auxiliary relays for both modules, mount two ARM-4s in separate positions. Place the ARM-4 against the CHS-4 chassis in any one of eight positions relative to the 1RWH )RU HDVH RI LQVWDOODWLRQ CRM-4 or CRE-4 (Figure 2-13).
Page 50 Installing an Auxiliary Relay Module (ARM-4) ,QVWDOODWLRQ Connect one end of the ARM-4 cable to plug P1 on the ARM-4 (Figure 2-15). Connect the other end of the ARM-4 cable to jumper JP5 on the CRM-4 or CRE-4 driving the ARM-4 module (Figure 2-15): $50 &DEOH 31 &50 RU &5( $50...
Page 51: Connecting The Mps-400 Power Cables
Connecting the MPS-400 Power Cables ,QVWDOODWLRQ MPS-400 electrical connections include the following: • Primary AC power source – 120 VAC, 50/60 Hz, 3.0 A or 240 VAC, 50/60 Hz, 1.5 A from line voltage source. • Secondary power source – 24 VDC from batteries, installed in the control panel (or in an optional battery cabinet), provides backup power if the system loses primary power.
Page 52: Connecting The Mps-400 To Ac Power (Tb1)
Connect... Internal system power The power harness (75396 for ADT-CAB-400AA/75395 for ADT-CAB-X3 series) from J6 on the MPS to J6 on the CPU. AMG-1 power A power harness from J1 on the MPS to P1 on the AMG-1. You can feed this same power to other boards or modules that require internal power.
Page 53: Installing Expander Row Ribbon Cables For Panel Modules
Installing Expander Row Ribbon Cables for Panel Modules ,QVWDOODWLRQ Expander Row Ribbon Cables (PN 71088) connect panel modules (ICM-4, CRM-4, VCM-4) to the CPU. Figure 2-17, Figure 2-18, and Figure 2-19 show typical wiring connections using Row Ribbon Cables. Figure 2-17 shows typical wiring connections using Expander Row Ribbon Cables to connect the CPU to two rows of panel modules.
Page 54 Installing Expander Row Ribbon Cables for Panel Modules ,QVWDOODWLRQ Figure 2-18 shows typical wiring connections to connect the CPU to two rows of panel modules. 1RWH ,Q WKH ILJXUH ´3µ LQGLFDWHV D SDQHO PRGXOH )RU H[DPSOH 3 LQGLFDWHV SDQHO PRGXOH FLUFXLW QXPEHU ([SDQGHU 5RZ 5LEERQ &DEOH 31 *URXS RI SDQHO...
Page 55 Installing Expander Row Ribbon Cables for Panel Modules ,QVWDOODWLRQ Figure 2-19 shows typical wiring of the CPU to a row of panel modules: 1RWH ,Q WKH ILJXUH ´3µ LQGLFDWHV D SDQHO PRGXOH )RU H[DPSOH 3 LQGLFDWHV SDQHO PRGXOH FLUFXLW QXPEHU - QRW XVHG - PRGXOH...
Page 56 Installing the CPU ,QVWDOODWLRQ To install the CPU into a chassis, follow these steps. Insert the two tabs of the CPU module into the two left-most chassis slots, angling the front end of the module into position as in Figure 2-20: &+6 &KDVVLV &38 6ORWV...
Page 57 Installing the CPU ,QVWDOODWLRQ Connect the CPU to the MPS-400 using the Power Harness and the Power Ribbon Cable as shown in Figure 2-22: &38 3RZHU 3RZHU +DUQHVV $'7&$%$$ $'7&$%; &38 6LJQDO 3RZHU 5LEERQ &DEOH $'7&$%$$ $'7&$%; 036...
Page 58 Mounting Expander Modules (CRE-4, ICE-4, VCE-4) ,QVWDOODWLRQ Table 2-8 contains illustrations and instructions for mounting an expander module to a CRM-4, ICM-4, or VCM-4 module: Step Action Remove one module support screw and set it aside for later use. 0RGXOH VXSSRUW VFUHZ Replace the module support screw...
Page 59 Mounting Panel Modules (CRM-4, ICM-4, VCM-4) onto a Chassis ,QVWDOODWLRQ To install a module onto a CHS-4 chassis, follow these steps. Angle the module into the chassis so that the upper board edge slips into the chassis slots as shown in Figure 2-23: &KDVVLV 6ORWV )LJXUH ,QVHUWLQJ D 0RGXOH WR D &+6 &KDVVLV...
Page 60 Installing a 4XTM Module (Remote Station Fire Alarm) ,QVWDOODWLRQ Install the 4XTM module by following these steps: Step Action Install the standoffs (provided) into the holes next to TB1 on the MPS-400 board. Carefully align the pins on the MPS-400 PC board with the connector on the 4XTM board.
Page 61 Installing a 4XTM Module (Remote Station Fire Alarm) ,QVWDOODWLRQ Push the Disconnect Switch (Figure 2-26) down to prevent unwanted activation of the Municipal Box during testing of the control panel. • The 4XTM Disconnect LED lights while the Municipal Box is disconnected; and •...
Page 62 )LJXUH 0RXQWLQJ DQ $'78=& WR D &+6 Place the module onto the CHS-4 as shown in Figure 2-27; then, insert and tighten the mounting screws. You can also mount the module to the upper right corner of the ADT-CAB-400AA $'7&$%$$ Series cabinet as follows: ,QVWDOODWLRQ Place the module into the ADT-CAB-400AA as shown in Figure 2-28.
Page 63 Field-Wiring the Modules ,QVWDOODWLRQ This section contains instructions for the following: • Notification Appliance Circuit (NAC) Wiring • Field-wiring an ICM-4 and an ICE-4 (NFPA Style Y and Z) • Field-wiring a CRM-4 and the CRE-4 • Field-wiring the MPS-400 Power Supply •...
Page 64 Field-Wiring the Modules ,QVWDOODWLRQ Figure 2-32 shows a block diagram that uses four NACs: 036 %HOO 3RZHU +DUQHVV 7% DQG 7% $ )RXU 1$&V WKDW VKDUH $ IURP 036 ,&0 036 7% DQG 7% 036 %HOO 3RZHU +DUQHVV )RXU 1$&V WKDW VKDUH $ IURP...
Page 65 Size NAC wiring so the voltage drop does not exceed the minimum rated voltage of the notification appliance used as the last device on the circuit. • For zone coded applications, refer to the ADT-UZC-256 manual. • The ICM-4 is California Code programmable (microprocessor Rev. B or higher).
Page 66 Field-Wiring the Modules ,QVWDOODWLRQ • These Form-C silver alloy relay contacts are for medium duty switching or pilot &50 DQG &5( duty (Figure 2-37). :LULQJ *XLGHOLQHV • UL contact ratings are 5 A @ 125 VAC (resistive) or 30 VDC (resistive) and 2 A @ 125 VAC (inductive).
Page 67 Field-Wiring the Modules ,QVWDOODWLRQ This section covers wiring an AVPS-24. Use TB2 terminals for a power circuit run to $936 :LULQJ M500CH control modules. Table 2-10 lists connections between the AVPS-24 and the 2YHUYLHZ MPS-400. For wiring, see Figure 2-38, Figure 2-39, or both. AVPS-24 Function Connect to MPS-400...
Page 68 Field-Wiring the Modules ,QVWDOODWLRQ This section shows how to wire initiating devices which require 24 VDC operating )LHOG :LULQJ 2YHUYLHZ power. Figure 2-41 shows wiring for Style D connections and Figure 2-42 shows wiring for Style B connections. Connect the Power Supervision Relay coil (A77-716B) leads to the last detector 1RWH 5HIHU WR WKH 'HYLFH base 24 VDC screw terminal.
Page 69 Field-Wiring the Modules ,QVWDOODWLRQ This section provides terminal assignments for ARM-4 module control relays K1-K4, 2YHUYLHZ which control nonpower-limited circuits. Wiring requirements follow: • Power-limited and nonpower-limited circuit wiring must remain separated in the 1RWH )RU PRUH LQIRUPDWLRQ cabinet. UHIHU WR $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ •...
Page 70 Field-Wiring the Modules ,QVWDOODWLRQ :DUQLQJ 6HYHUDO VRXUFHV RI SRZHU FDQ EH FRQQHFWHG WR WKH FRQWURO SDQHO %HIRUH VHUYLFLQJ WKH FRQWURO SDQHO GLVFRQQHFW DOO VRXUFHV RI LQSXW SRZHU :KLOH HQHUJL]HG WKH FRQWURO SDQHO DQG DVVRFLDWHG HTXLSPHQW FDQ EH GDPDJHG E\ UHPRYLQJ DQGRU LQVHUWLQJ FDUGV PRGXOHV RU LQWHUFRQQHFWLQJ FDEOHV Figure 2-44 shows the terminal blocks, NACs, switches, and connectors used to wire !$ 4,7/...
Page 71 Field-Wiring the Modules ,QVWDOODWLRQ MPS-400 terminal TB2 provides three power outputs (each output is power-limited), '& 3RZHU 2XWSXW shown in Figure 2-45: &RQQHFWLRQV 036 )RXUZLUH VPRNH 1RQUHVHWWDEOH SRZHU GHWHFWRU SRZHU 1RQUHVHWWDEOH SRZHU &LUFXLW UHVHWWDEOH &LUFXLW 1RWH $OO '& SRZHU RXWSXWV DUH SRZHUOLPLWHG )LJXUH 036 7% '&...
Page 72 Field-Wiring the Modules ,QVWDOODWLRQ The MPS-400 provides four NACs (Style Y :LULQJ 036 2XWSXW 1RWLILFDWLRQ $SSOLDQFH &LUFXLWV 1$&V or Z). Each circuit can provide 2.5 A of current—but the total current drawn from the &LUFXLWV MPS-400 cannot exceed 6.0 A (refer to Table G-2). Use UL-listed 24 VDC notification appliances only.
Page 73 Installing Remote Printers and CRTs ,QVWDOODWLRQ The PRN-4 remote printer prints a copy of all status changes within the control panel and time-stamps the printout with current time of day and date. The PRN-4 provides 80 columns of data on standard 9" by 11" tractor-feed paper. This section contains information for setting the printer options and connecting a printer to the control panel.
Page 74 Installing Remote Printers and CRTs ,QVWDOODWLRQ Remote printers require a 120 VAC, 50/60 Hz primary power source and a secondary ,QVWDOOLQJ D 351 power source (battery backup). Because a secondary power source is not provided, use 5HPRWH 3ULQWHU a separate Uninterruptable Power Supply (UPS) that is UL-listed for Fire Protective Signaling.
Page 75 Installing Remote Printers and CRTs ,QVWDOODWLRQ Connect the printer cable to terminal TB1 on the CPU as shown in Figure 2-51: ,QVWDOOLQJ D .HOWURQ 3ULQWHU Connect the DB-25 connector to the EIA-232 port of the Keltron printer. Connect DC power from terminal TB2 on the MPS-400. '% FRQQHFWRU RQ .HOWURQ 3ULQWHU &38...
Page 76 Installing Remote Printers and CRTs ,QVWDOODWLRQ Connect a CRT-2 to the CPU as follows: Connect one end of the cable to terminal TB2 on the CPU. Plug the DB-25 connector to the EIA-232 port of the CRT-2 (Table 2-14). 1RWH )RU WHUPLQDO LQWHUIDFH DQG SURWRFRO LQIRUPDWLRQ UHIHU WR $SSHQGL[ (...
Page 77 Addressable Pull Station covers wiring an ADT-BGX-101L in an SLC. Wiring an Intelligent Detector "SLC Wiring with an ADT-BGX-101L Addressable Manual Pull Station" on page 2-61, which covers wiring an Intelligent Detector in an SLC. Table 2-15 SLC Wiring Topics...
Page 78 Monitor Modules alarm initiating devices, such as manual pull stations, detectors, (M500M series) waterflow and supervisory devices. The ADT-BGX-101L (a type of monitor module) provides point annunciation of manual pull stations. Control Modules Allows the control panel to selectively activate Notification Appliance (M500CH series) Circuits (NACs) or Form-C output relays.
Page 79 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ SLC performance depends on the type of circuit: Style 4, Style 6, or Style 7. Table 2-17 lists the trouble conditions that result when a fault exists on an SLC. Fault in Loop Style 4 Style 6 Style 7...
Page 80 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ All wiring leaving the control panel must be shielded. Figure 2-55, Figure 2YHUYLHZ 2-56, and Figure 2-57 show three methods of wiring termination, depending on the type of conduit used: a) no-conduit, b) full-conduit, and c) partial-conduit. Do not allow the shield drain wire to enter the 1R&RQGXLW 6KLHOG 7HUPLQDWLRQ system cabinet.
Page 81 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ The total DC resistance from panel to branch end cannot exceed 40 ohms. Measure DC 0HDVXULQJ /RRS resistance as shown in Figure 2-58: 5HVLVWDQFH IRU D 7ZR :LUH 6/& 6/& 2XW %UDQFK )LJXUH 0HDVXULQJ '&...
Page 82 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Figure 2-60 shows typical wiring of a supervised and power-limited two-wire SLC that meets NFPA 72 Style 4 requirements. Table 2-18 contains SLC connections shown in Figure 2-60. Connection SLC 1 SLC 2 SLC Out TB5-1 (+) TB6-1 (+)
Page 83 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ The total DC resistance of the SLC pair cannot exceed 40 ohms. Measure DC 0HDVXULQJ /RRS resistance as shown in Figure 2-61. 5HVLVWDQFH IRU D )RXU :LUH 6/& Disconnect the SLC Out and SLC Return at the control panel. 1RWH )RU GHWDLOHG ZLULQJ UHTXLUHPHQWV UHIHU WR Short the two leads of SLC Return.
Page 84 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6W\OH :LULQJ 2YHUYLHZ Figure 2-63 shows typical wiring for a supervised and power-limited four-wire SLC that meets NFPA 72 Style 6 requirements. Table 2-19 contains the SLC connections for this circuit: Connection SLC 1 SLC 2...
Page 85 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6W\OH :LULQJ 2YHUYLHZ Obtain Style 7 operation by using Isolator Bases (B524BI or B224BI) with each detector flanking M500M modules with M500X modules (Figure 2-64). Wire-to-wire shorts on the SLC do not prevent the control panel from receiving alarm signals. Do not T-Tap or branch a Style 7 four-wire SLC.
Page 86 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Use a loop Isolator Module (M500X) to protect critical elements of the SLC from faults 0; 2YHUYLHZ on other branches or sections of the SLC. The M500X continuously monitors the circuit connected to terminals 3 (–) and 4 (+). Upon power-up, an integral relay latches. The M500X periodically pulses the coil of this relay.
Page 87 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ The M500M Monitor Module is an addressable module that monitors conventional 2YHUYLHZ RI 0RQLWRU contact-type, alarm, supervisory, security, alert, or trouble initiating devices. You can 0RGXOHV 00 wire a supervised M500M circuit as an NFPA Style B or Style D IDC. 6HULHV •...
Page 88 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 1)3$ 6W\OH % Figure 2-68 shows typical wiring using M500M modules to wire a Style B IDC. ,'& ZLWK 00V Maximum IDC resistance is 20 ohms. Refer to the Device Compatibility Document for detector and power supervision relays.
Page 89 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 1)3$ 6W\OH % Figure 2-69 shows typical wiring for a supervised and power-limited NFPA Style B ,'& ZLWK 00V IDC using M502M modules. For more information, refer to the M502M Installation Instructions, Document M500-03-00.
Page 90 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ DQ 1)3$ 6W\OH % Figure 2-70 shows typical wiring for a supervised and power-limited NFPA Style D ,'& ZLWK 00V (Class A) IDC using M500M modules. Maximum IDC resistance is 20 ohms. 8/OLVWHG SRZHU VXSHUYLVLRQ 1RWH 5HIHU WR WKH 'HYLFH UHOD\ VKRZQ HQHUJL]HG...
Page 91 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ :LULQJ D 1)3$ 6W\OH ' Figure 2-71 shows typical wiring for a Style D IDC using an M502M module. For ,'& ZLWK 00 electrical specifications for a Style D IDC, see Table 2-21. 0RGXOHV The Maximum is...
Page 92 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 0&+ 0RGXOH The M500CH Control Module is an addressable module that supervises and switches 2YHUYLHZ power to a Notification Appliance Circuit (NAC). You can use M500CHs for one of the following applications: •...
Page 93 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Install an M500CH as a Form-C relay by following the instructions in Table 2-22: ,QVWDOOLQJ DQ 0&+ DV D )RUP& 5HOD\ Step Action Configure an M500CH as a Form-C relay by using a needle-nose pliers to break off the two tabs (J1 and J2): 0&+ %UHDNRII WDEV - DQG -...
Page 94 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Figure 2-74 shows a supervised and power-limited NFPA Style Y NAC using an 6W\OH < 1$& &LUFXLWV M500CH module. This shows polarized alarm notification appliances connected to 7ZR:LUH M500CH modules in a two-wire configuration. An M500CH module can control 2 A of resistive load (on electronic devices) or 1 A of inductive load (on mechanical bells and horns).
Page 95 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 6W\OH = 1$& Figure 2-75 shows an NFPA Style Z NAC with notification appliances connected to an M500CH module. 1RWH 5HIHU WR WKH 'HYLFH Connect the NAC as follows: &RPSDWLELOLW\ 'RFXPHQW IRU FRPSDWLEOH QRWLILFDWLRQ Connect the SLC to M500CH terminals 1 (–) and 2 (+).
Page 96 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Figure 2-76 shows an NFPA Style Z NAC with an MPS-400 NAC supplying 24 VDC 6W\OH = 1$& &LUFXLWV power to an M500CH module. In this circuit, no external ELR is required. When an 0HWKRG ²...
Page 97 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ Figure 2-77 shows a second method of powering an M500CH from an MPS-400 NAC. 6W\OH = 1$& &LUFXLWV (See Figure 2-76 on page 2-58 for the first method.) The NAC is supervised and 0HWKRG ²...
Page 98 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ 2YHUYLHZ IRU :LULQJ The B501B base provides the connection between the SLC and 2551, 2551TH, 1251, ,QWHOOLJHQW 'HWHFWRUV 2251, 5551R, and 3251 intelligent detectors. Connect the communications loop to terminal 1 (–) and terminal 2 (+) on the detector mounting base.
Page 99 Wiring a Signaling Line Circuit (SLC) ,QVWDOODWLRQ $'7%*;/ The ADT-BGX-101L is an addressable manual pull station with a key-lock reset feature. 2YHUYLHZ Connect the SLC to terminal screws (+) and (–). Connect the ADT-BGX-101L to the CPU as listed in Table 2-24:...
Page 100 2-62 Unimode 400 Installation PN 50710:A 10/22/97...
Page 101 When finished with the original installation and all modifications, conduct a complete operational test on the entire installation to verify compliance with applicable NFPA standards. Testing should be conducted by a factory-trained fire alarm technician in the presence of a representative of the Authority Having Jurisdiction and the owner's representative.
Page 102 Test Modes 7HVWLQJ WKH 6\VWHP The control panel provides two test modes: Walk Test and Live Test. Both test modes modify the detection algorithms for faster detectors response time during a test mode, which reduces system test time. Warning: Walk Test mode can deactivate fire protection. Make sure to do the following for a Walk Test: •...
Page 103 Test Modes 7HVWLQJ WKH 6\VWHP To enter Live Test Mode, follow these steps: Press Enter and the control panel displays the Program Entry screen: 352*5$00,1* 5($' 67$786 (175< (6&$3( 72 $%257 )LJXUH 3URJUDP (QWU\ 6FUHHQ Press 1 and the control panel displays the Enter Password screen: (17(5 352* 25 67$7 3$66:25' 7+(1 (17(5 (6&$3( 72 $%257 )LJXUH (QWHU 3DVVZRUG 6FUHHQ...
Page 104 Battery Checks and Maintenance 7HVWLQJ WKH 6\VWHP Maintenance-free sealed lead-acid batteries used in the system do not require the addition of water or electrolyte. These batteries are charged and maintained in a fully charged state by the main power supply's float charger during normal system operation. A discharged battery typically charges at 1.5 A and reaches the float voltage of 27.6 VDC within 48 hours.
Page 105 This section contains instructions for installing and wiring modules that can be used in a Unimode 400 voice alarm system. Table 4-1 contains the topics covered in Section 4. Section Covers the following topics... Page Installing an AMG Mounting an AMG/ATG Assembly Wiring an AMG Setting AMG switches AMG tone and Message selections...
Page 106 Installing an AMG 9RLFH $ODUP 6\VWHP Figure 4-1 contains instructions for installing an AMG module into a CHS-4L chassis: Step Action Put a standoff on the first and fourth studs from the top-left corner of the CHS-4L chassis. Angle the bottom edge of &DSWLYH VFUHZ the module into the bottom slot of the CHS-4L.
Page 107 Installing an AMG 9RLFH $ODUP 6\VWHP Figure 4-2 shows the AMG-1 terminals: 7URXEOH ,QSXW &DEOH 7URXEOH 2XWSXW &DEOH $0*( ,QWHUFRQQHFW &DEOH 1R &RQQHFWLRQ (,$ &RQQHFWLRQV &RQWURO +DUQHVV 3RZHU +DUQHVV 2XW $XGLR 6LJQDO LQWHUQDO $XGLR 6LJQDO 3RZHU +DUQHVV ,Q H[WHUQDO )LJXUH $0* 7HUPLQDOV Table 4-2 contains descriptions of the AMG-1 terminals: Input/Output...
Page 108 Installing an AMG 9RLFH $ODUP 6\VWHP An AMG appears as an annunciator to the control panel and operates on address 01. Installing an AMG requires programming the control panel and setting the AMG-1 DIP switch. Table 4-3 contains AMG programming and switch settings: Single-channel applications AMG-1 RECEIVE ONLY switch to Off.
Page 109 Installing an AMG 9RLFH $ODUP 6\VWHP Table 4-5 lists the tone and message selections available when DIP switch 2 (Tone/ Message Switch) is Off: SW2 Rocker System NAC 1 (B01) Audio Tone or Message Switches Status Condition No Alarm Standby No Alarm 1000 Hz 1/2 sec on, 1/2 sec off...
Page 110 Installing an AMG 9RLFH $ODUP 6\VWHP Table 4-6 lists the tone and message selections available when DIP switch 2 (Tone/ Message Switch) is On: NAC 1 AMG-1 SW2 System (B01) Audio Tone or Message Rocker Switches Status Condition No Alarm Standby No Alarm Horn...
Page 111 Installing an AMG 9RLFH $ODUP 6\VWHP Figure 4-4 shows ATG-2 terminal connections: 7URXEOH ,QSXW &RQWURO +DUQHVV /RZOHYHO $XGLR ,QSXW DQG 7KURXJK /RZOHYHO $XGLR 1$& &RQQHFWLRQ 2XWSXW &RQQHFWLRQV 7RQH 6WDUW ,QSXW 3RZHU +DUQHVV 2XW 3RZHU +DUQHVV ,Q &RQILJXUDWLRQ 3$*( 6(/(&7 6ZLWFKHV 6ZLWFK 6WDWXV...
Page 112 Installing a Fire Fighter’s Telephone (FFT-7 and FFT-7S) 9RLFH $ODUP 6\VWHP The FFT-7 and the FFT-7S modules mount on designated studs on the CHS-4L chassis. The module installation kit includes standoffs to secure the module to the studs on the CHS-4L.
Page 113 Installing a Fire Fighter’s Telephone (FFT-7 and FFT-7S) 9RLFH $ODUP 6\VWHP Figure 4-8 shows FFT-7/FFT-7S terminals and connections to other devices in the system. Follow the instructions in Table 4-8 to connect an FFT-7 or FFT-7S to a Unimode 400 system: $8',2 ),5(...
Page 114 Installing Audio Amplifiers (AA-30/AA-100/AA-120) 9RLFH $ODUP 6\VWHP The AA-30 mounts in a CHS-4L chassis, which can hold two AA-30s placed side by 2YHUYLHZ side. In addition to mounting, do the following: Connect a primary (AC) and a secondary (24 VDC battery) power source to each AA-30.
Page 115 Installing Audio Amplifiers (AA-30/AA-100/AA-120) 9RLFH $ODUP 6\VWHP Figure 4-10 and Figure 4-11 show terminal connections to an AA-30. $$ 7HUPLQDOV DQG &RQQHFWRUV • The low-level audio input and high-level audio output P connectors are primarily for in-cabinet applications where the wiring to or from the AA-30 remains in the cabinet.
Page 116 Installing Audio Amplifiers (AA-30/AA-100/AA-120) 9RLFH $ODUP 6\VWHP The AA-100/AA-120 mounts directly to the cabinet backbox. In addition to mounting, 2YHUYLHZ do the following: Connect primary (AC) and secondary (24 VDC battery) power source to each audio amplifier. Provide an external device for charging the batteries (such as an MPS-400). AA-100/AA-120 audio amplifiers mount directly to the backbox.
Page 117 Installing Audio Amplifiers (AA-30/AA-100/AA-120) 9RLFH $ODUP 6\VWHP Low-level audio input and high-level audio output connectors are primarily for in- $$$$ cabinet applications where the wiring to or from the AA-100/AA-120 remains in the 7HUPLQDOV DQG &RQQHFWRUV cabinet. For multiple-cabinet applications, use the terminals. Figure 4-13 shows terminal $$$$ /RZHU %RDUG &RQQHFWLRQV connections to an AA-100/AA-120 lower board:...
Page 118 Installing Audio Amplifiers (AA-30/AA-100/AA-120) 9RLFH $ODUP 6\VWHP 2YHUYLHZ Use an AA-30, AA-100 or AA-120 Audio Amplifier to back up one or more amplifiers. If an amplifier fails, backup amplifier switching is automatic. To connect amplified audio output, do the following: •...
Page 119 Voice Alarm Modules 9RLFH $ODUP 6\VWHP Voice alarm modules for the Unimode 400 feature removable terminal blocks that simplify installation and servicing of the control panel. These modules include the Voice Control Module (VCM-4), the Voice Control Expander (VCE-4), and the Dual Channel Module (DCM-4).
Page 120 Voice Alarm Modules 9RLFH $ODUP 6\VWHP Follow these guidelines when connecting VCM-4 speaker circuits: 2YHUYLHZ Speaker circuits are supervised and power-limited. Use twisted-pair cable for wiring speaker circuits. Maximum speaker circuit wire resistance depends on wattage required for each speaker.
Page 121 Voice Alarm Modules 9RLFH $ODUP 6\VWHP Follow these guidelines when connecting VCM-4 telephone circuits: • Telephone circuits are supervised and power-limited. • Use twisted-pair cable for telephone circuit wiring. • Maximum telephone circuit wire resistance is 40 ohms. • Install End-of-Line Resistors according to Table 4-12: For ELR connection to devices...
Page 122 Voice Alarm Modules 9RLFH $ODUP 6\VWHP The VCM-4 comes with a factory-installed jumper plug on JP3. Use the jumper to 6HWWLQJ WKH 9&0 WR select the operating mode of the entire module (VCM-4 plus optional VCE-4). Select 6SHDNHU RU 7HOHSKRQH 0RGH Speaker or Telephone mode as detailed in Table 4-13: Select...
Page 123 Voice Alarm Modules 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV • All speaker circuits are supervised and power-limited. • Twisted-pair cable should be used for speaker circuit wiring. • Maximum speaker circuit wire resistance is dependent upon wattage required at each speaker. •...
Page 124 Voice System Configurations 9RLFH $ODUP 6\VWHP This section contains typical configurations for voice systems as outlined in Table 4-15: Configuration Refer to... Internal Power Distribution Figure 4-21 on page 4-21 Figure 4-22 on page 4-21 CPU EIA-485 Connections Figure 4-23 on page 4-22 Figure 4-24 on page 4-22 Wiring an Audio Signal without a Backup Amplifier Figure 4-25 on page 4-23...
Page 125 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJ 'LDJUDP Figure 4-22 shows typical wiring for distributing power within a voice system: 3RZHU ULEERQ FDEOH 3RZHU &DEOH $'7&$%; $'7&$%; $'7&$%$$ $'7&$%$$ $'7&38 &DEOH RU 1RWH 3 DQG 3 RQ WKH $0* DQG WKH ))7 DUH LQWHUFKDQJHDEOH 036 )LJXUH 6\VWHP &RQILJXUDWLRQ ²...
Page 126 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJ 'LDJUDP Figure 4-23 shows typical wiring of EIA-485 connections between the CPU, AMG-1, and annunciators: 1RWH 8VH $:* WR $:* WZLVWHGSDLU FDEOH IRU (,$ FRQQHFWLRQV 5HPRWHO\ PRXQWHG VHULDO DQQXQFLDWRUV $'7&38 1RWH RKP HQG RIOLQH UHVLVWRUV UHTXLUHG RQ WKH ODVW...
Page 127 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV Figure 4-25 and Figure 4-26 show the use of two AA-30s without backup. Table 4-16 lists wiring components used in Figure 4-25 and Figure 4-26. Item Supplied with Part Number Low level Audio cable AA-30, AA-100, AA-120 75100 Telephone cable...
Page 128 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV Figure 4-27 and Figure 4-28 show speaker wiring using two AA-30s with a backup AA-30. Table 4-17 lists the inventory for wiring the speakers. Set FFT-7 SW1 for four-wire operation (down position). 1RWH 8VH $:* WR $:* WZLVWHGSDLU FDEOH IRU (,$ Mount resistor R470 across P3-4 and P3-5 on the last amplifier (Figure 4-27).
Page 129 Voice System Configurations 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When connecting the CPU Trouble bus, note the following: P9 and P10 on audio amplifiers (AA-30, AA-100, and AA-120) and P1 and P2 on the AVPS-24 are interchangeable. Trouble cable part numbers are: 75098 (24-inch) or 71033 (60-inch). :LULQJ 'LDJUDP Figure 4-30 shows typical wiring for connecting a trouble bus to a CPU: $'7&38...
Page 130 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP This section contains typical wiring diagrams for wiring speaker circuits in the configurations listed in Table 4-18: Configuration Refer to... 30 Watt/Four and Eight Speaker Circuits Four speakers – Figure 4-31 on page 4-27 Eight speakers –...
Page 131 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring four-and eight-speaker circuits using 30 watts of power, note the following: An AA-30 supplies audio power through plug P6, or terminals 5 and 6 on terminal block P8. This audio power run is not supervised. If using the optional supervised return, a loss of audio power (due to a break in the wiring) generates a trouble signal at the AA-30.
Page 132 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring four-and eight-speaker circuits using 120 watts of power, note the following: The AA-120 draws audio power from plug P6, or terminals 5 and 6 of terminal block P8. This audio power run is not supervised. If using the optional supervised return, a loss of audio power (due to a break in the wiring) generates a trouble signal at the AA-120.
Page 133 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring eight speaker circuits using 90 watts of power, note the following: The AA-30 supplies audio power through plug P6, or terminals 5 and 6 on terminal block P8. (This audio power run is not supervised.) If using the optional supervised return, a loss of audio power (due to a break in the wiring) will generate a trouble signal at the AA-30.
Page 134 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring eight speaker circuits using 240 watts of power, note the following: The AA-120 draws audio power from plug P6, or terminals 5 and 6 of terminal block P8. This audio power run is not supervised. If using the optional supervised return, a loss of audio power (due to a break in the wiring) will generate a trouble signal at the AA-120.
Page 135 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring eight speaker circuits using 180 watts of power, note the following: AA-30 audio power is drawn from plug P6 or terminals 6 and 7 of terminal block P8. This audio power run is not supervised. If using the optional supervised return (plug P7 or terminals 2 and 3 of block P8), a loss of audio power due to a break in the wiring will generate a trouble signal at the AA-30.
Page 136 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 30 watts of power, note the following: Plug P6 or terminals 5 and 6 of terminal block P8 provide AA-30 audio power. This audio power run cannot be supervised in this configuration. Maximum power is 30 watts per circuit.
Page 137 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 120 watts of power with four AA-30s, note the following: AA-30 audio power is drawn from plug P6 or terminals 6 and 7 of terminal block P8.
Page 138 Wiring Speaker Circuits 9RLFH $ODUP 6\VWHP :LULQJ 1RWHV When wiring circuits in a dual-channel configuration using 120 watts of power with two AA-120s, note the following: AA-120 audio power is drawn from plug P6 or terminals 5 and 6 of terminal block P8.
Page 139 Voice Message Options (VROM and VRAM) 9RLFH $ODUP 6\VWHP You can install two types of message chips into an AMG-1: VROM – A nonvolatile memory chip containing a factory-programmed evacuation message (up to 24 seconds). You can install one or two VROMs into an AMG-1. Refer to Document 15945 for contents of available VROMs.
Page 140 ACT-1 Audio Coupling Transformer 9RLFH $ODUP 6\VWHP The ACT-1 Audio Coupling Transformer couples low-level audio to audio amplifiers or other audio inputs, such as the ATG-2. An ACT-1 can be used to couple a low-level audio signal to up to eight devices in the same cabinet. It provides electrical isolation between low-level audio riser and equipment to which the signal is to be fed (amplifiers or the ATG-2).
Page 141 ACT-1 Audio Coupling Transformer 9RLFH $ODUP 6\VWHP The ACT-1 connects to one of up to eight amplifiers on a channel. Multiple ACT-1s ,QVWDOODWLRQ 1RWHV are required for amplifiers on multiple channels. To install an ACT-1, follow these steps: Connect the low-level audio circuit to the terminal block on the ACT-1. Connect the ACT-1 to the first amplifier in the chain.
Page 142 4-38 Unimode 400 Installation PN 50710:A 10/22/97...
Page 143 How to wire a NFPA 72-1993 Remote Station Fire Alarm System Station Fire Alarm System" (Fire•Lite RS82 Remote Station Receiver). on page 5-4 "ADT Network Interface How to connect an ADT-NIB-96 to a control panel, including SLC and Board (ADT-NIB-96)" on EIA-485 Connections. page 5-5 "Using the XP Transponder How to wire an XP Series Transponder to the CPU.
Page 144 Central or Remote Station Fire Alarm System (UDACT) $SSOLFDWLRQV Figure 5-1 shows typical wiring diagram for a NFPA 72-1993 Central Station Fire Alarm System (Protected Premises Unit) or a Remote Station Fire Alarm System (Protected Premises Unit) using the UDACT and control panel. Connect and program the Universal Digital Alarm Communicator/Transmitter (UDACT) according to the directions given in the UDACT Installation Manual (Document 50050).
Page 145 Auxiliary Fire Alarm System $SSOLFDWLRQV Figure 5-2 shows typical wiring for an Auxiliary Fire Alarm System (Municipal Box connected to a 4XTM). Note the following: The Local Energy Municipal Box circuit is nonpower-limited. Maintain at least a 1RWH 1)3$ $X[LOLDU\ 0.25 inch space between the Municipal Box Circuit wiring and all power-limited UHTXLUHV KRXUV RI VWDQGE\ SRZHU...
Page 146 NFPA 72-1993 Remote Station Fire Alarm System $SSOLFDWLRQV Figure 5-3 shows typical wiring for NFPA 72-1993 Remote Station Fire Alarm System (UL-listed Fire-Lite RS82 Remote Station Receiver). Note the following: This application is intended for connection to a polarity reversal circuit of a remote station receiving unit with compatible ratings.
Page 147 All connections are power-limited and supervised. See Sections 3, 4, and 5 for connections details on connection requirements. See Figure 5-5 for terminal assignments. Power In Connects ADT-NIB to the Main Power Supply (if not mounted in an ICA-4/L). Power Out Connection to other equipment. Power connector Not used.
Page 148 ADT Network Interface Board (ADT-NIB-96) $SSOLFDWLRQV Figure 5-5 shows the pinouts for SLC (P5) and EIA-485 (P4) connections on the ADT-NIB-96 board. The EIA-485 circuit requires a serial connection. Connect only one wire to each screw terminal. 6/& /RRS ,Q (,$ /RRS 2XW 6/&...
Page 149 Using the XP Transponder with the Unimode 400 $SSOLFDWLRQV The XP Series Transponder is a multiplex subsystem that communicates directly with the CPU through an SLC loop. If the CPU fails or loses power, the XP can operate in a degraded stand-alone mode.
Page 150 For bypass of security zones, use the DISABLE routine (covered in the Status Change section of the Unimode 400 Operations Manual) for Security ALA type devices. Wire the cabinet with a security tamper switch kit (Figure 5-7). ADT-CAB-400AA cabinets require tamper switch model STS-200; ADT-CAB-X3 cabinets require model STS-1.
Page 151 Combination Fire/Security Applications/Security Applications $SSOLFDWLRQV Install the STS-1 tamper switch onto the side of the backbox opposite the door ,QVWDOOLQJ D 6HFXULW\ hinge. 7DPSHU 6ZLWFK LQWR WKH $'7&$%; Push the STS-1 through the opening in the backbox until the switch snaps into place.
Page 152 Combination Fire/Security Applications/Security Applications $SSOLFDWLRQV Figure 5-9 shows typical wiring for proprietary Security alarm applications with an M500CH configured as a Notification Appliance Circuit. Note the following: The M500CH is configured as a Notification Appliance Circuit (do not break tabs) and programmed in the Protected Premises Unit.
Page 153 Universal Zone Coder (ADT-UZC-256) $SSOLFDWLRQV The ADT-UZC-256 board is used for zone coding, providing up to 256 software zone codes. The ADT-UZC-256 monitors system status through the CPU EIA-485 annunciator port and outputs pre-programmed codes in response to signals it receives.
Page 154 Universal Zone Coder (ADT-UZC-256) $SSOLFDWLRQV Figure 5-11 shows the NAC and EIA-485 power connections on the ADT-UZC-256 board: 1$& FLUFXLW 1& &20 1$& FLUFXLW 1& &20 1$& FLUFXLW 1$& 3RZHU &RQQHFWLRQV 1& &20 1$& FLUFXLW SRZHU (,$ &RQQHFWLRQV...
Page 155 Universal Zone Coder (ADT-UZC-256) $SSOLFDWLRQV To connect the ADT-UZC-256 to the CPU, follow these steps: Connect the main power harness (PN 75100, provided with the ADT-UZC-256) from MPS-400 connector J1 to ADT-UZC-256 connector P2. Connect the EIA-485 ACS annunciator port as follows:...
Page 156 This section contains information for wiring ADT-UZC-256 modules for 12 zone- coded NACs. Table 5-7 contains a list of connections between panel modules and the ADT-UZC-256. (All cables are PN 71091, except cable PN 71093 between the MPS-400 and the ADT-UZC-256.) Make sure to mate all connectors (except MPS-400, J3) as shown in Figure 5-13.
Page 157 This section contains information for wiring ADT-UZC-256 modules for 20 zone-coded NACs. Table 5-8 contains a list of connections between the panel modules and the ADT-UZC-256. (All cables are PN 71091, except cable PN 71093 between the MPS-400 and the ADT-UZC-256.). Make sure to mate all connectors (except MPS-400, J3) as shown in Figure 5-14.
Page 158 Releasing Applications $SSOLFDWLRQV This control panel can be used for agent release or preaction/deluge control applications. When used with compatible, listed actuating and initiating devices, the control panel meets the requirements of these NFPA standards: Standard Covers NFPA 12 CO2 Extinguishing Systems NFPA 12A Halon 1301 Extinguishing Systems...
Page 159 Releasing Applications $SSOLFDWLRQV 2YHUYLHZ When connecting a releasing device to an MPS-400, note the following: The control panel provides four NAC/Releasing Circuits (Style Y or Z). Each circuit can provide 2.5 A. Total current drawn from the MPS-400 cannot exceed 6 A (see Table G-2 on page G-3).
Page 160 Releasing Applications $SSOLFDWLRQV 2YHUYLHZ When connecting a releasing device to an ICM-4 or ICE-4 module, note the following: The ICM-4 and ICE-4 provide four NAC/Releasing Circuits (Style Y or Z). Each circuit can provide 3 A of current. Make sure to keep total system current within the limits of the power supply.
Page 161 Releasing Applications $SSOLFDWLRQV 2YHUYLHZ You can use M500CH modules for releasing circuits. Each module can control 1 A of current. Make sure to keep total system current within the limits of the power supply. You can power the M500CH from the MPS-400 or any UL-listed 24 VDC power-limited power supply for Fire Protective Signaling.
Page 162 Releasing Applications $SSOLFDWLRQV 2YHUYLHZ When connecting an N-ARA-10, note the following: For releasing applications, use an end-of-line device (PN REL-47K) with the M500CH module. Use an end-of-line device (PN REL-4.7K) with the control panel releasing circuit (one of the four Notification Appliance Circuits). All wiring for releasing circuits is supervised against open and shorts.
Page 163 Releasing Applications $SSOLFDWLRQV 2YHUYLHZ A Combination Waterflow/Supervisory Valve Monitor circuit allows an FACP to distinguish between a Waterflow Alarm Switch and a Waterflow Supervisory Switch installed on the same Monitor Module. Figure 5-23 shows an NFPA Style B Initiating Device Circuit (IDC) that meets requirements for a Combination Waterflow/ Supervisory Valve Monitor circuit.
Page 164 5-22 Unimode 400 Installation PN 50710A 10/22/97...
Page 165 6,000 feet from the control panel. Use the Terminal Mode interface for communicating with ADT-LCD-80 annunciators operating in Terminal Mode (through TB3 on the CPU). In Terminal Mode, each ADT- LCD-80 display mirrors the Unimode 400 front panel display. Also, each ADT-LCD-80 displays the complete status of the fire alarm system and lets you do Acknowledge, Silence, and System Reset control panel functions from a remote location.
Page 166 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV The control panel’s annunciation points are divided into eleven ACS selection groups as follows: • Nine predefined ACS selection groups (1-9), each containing 64 points. • Two user-defined ACS selection groups (Special Annunicators A and B) that lets a system designer assign detectors, modules, and zones to any annunciator point.
Page 167 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 7\SH 5HG /(' <HOORZ /(' 6ZLWFK )XQFWLRQ &RPPHQWV 1XPEHU ,QGLFDWHV ,QGLFDWHV Input System Alarm System Trouble Acknowledge Output Not Used Signal Silenced Signal Silence Output Not Used Program Mode System Reset Output Not Used Supervisory...
Page 168 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 7\SH 5HG /(' <HOORZ /(' 6ZLWFK )XQFWLRQ &RPPHQWV 1XPEHU ,QGLFDWHV ,QGLFDWHV Input Zone 57 Active Zone 57 Trouble Not Used Input Zone 58 Active Zone 58 Trouble Not Used Input Zone 59 Active Zone 59 Trouble Not Used Input...
Page 169 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Module 101 Active Module 101 Trouble Controls Output Module Input or Output Module 102 Active Module 102 Trouble Controls Output Module Input or Output Module 103 Active...
Page 170 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Module 201 Active Module 201 Trouble Controls Output Module Input or Output Module 202 Active Module 202 Trouble Controls Output Module Input or Output Module 203 Active...
Page 171 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input or Output Module 165 Active Module 165 Trouble Controls Output Module Input or Output Module 166 Active Module 166 Trouble Controls Output Module Input or Output Module 167 Active...
Page 172 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Detector 101 Alarm Detector 101 Trouble Not Used Input Detector 102 Alarm Detector 102 Trouble Not Used Input Detector 103 Alarm Detector 103 Trouble Not Used Input...
Page 173 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Detector 201 Alarm Detector 201 Trouble Not Used Input Detector 202 Alarm Detector 202 Trouble Not Used Input Detector 203 Alarm Detector 203 Trouble Not Used Input...
Page 174 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Input Detector 165 Alarm Detector 165 Trouble Not Used Input Detector 166 Alarm Detector 166 Trouble Not Used Input Detector 167 Alarm Detector 167 Trouble Not Used Input...
Page 175 Annunciator Selection Groups $SSHQGL[ $ $QQXQFLDWRUV $&6 3RLQW 3RLQW 5HG /(' <HOORZ /(' 6ZLWFK &RPPHQWV 1XPEHU 7\SH ,QGLFDWHV ,QGLFDWHV )XQFWLRQ Output Module P1.1 Active Module P1.1 Trouble Controls Module P1.1 Output Module P1.2 Active Module P1.2 Trouble Controls Module P1.2 Output Module P1.3 Active Module P1.3 Trouble Controls Module P1.3...
Page 176 CPU. ADT-LCD-80 ACS Mode EIA-485 Connecting an ADT-LCD-80 in Terminal A-14 Connection (CPU, TB4) Mode, the ADT-LCD-80 connects to TB4 on the CPU using a looped EIA-485 circuit. Powering ADT-ACS-, ADT-ACM-, and Connecting an ADT-LCD-80 operated in A-15 ADT-LDM-type Annunciators ACS mode to TB3 on the CPU.
Page 177 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV An ADT-LCD-80 operating in Terminal mode connects to TB3 on the CPU using a &RQQHFWLRQ *XLGHOLQHV looped power-limited and supervised EIA-485 circuit as shown in Figure A-1. • Maximum distance between the control panel and the first or last ADT-LCD-80 and between each ADT-LCD-80: 6,000 feet (using 16 AWG wire).
Page 178 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV When operating an ADT-LCD-80 in ACS Mode, the ADT-LCD-80 connects to TB4 on &RQQHFWLRQ *XLGHOLQHV the CPU using a looped EIA-485 circuit as shown in Figure A-2. • EIA-485 circuits are power-limited and supervised. •...
Page 179 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV An ADT-LCD-80 operated in ACS mode connects to TB4 on the CPU using a 2YHUYLHZ power-limited EIA-485 circuit. Figure A-3 shows power connections for ADT-LCD-, ADT-ACM-, and ADT-ACS- type annunciators; and Figure A-4 shows power connections for ADT-LCD-80s.
Page 180 Refer to the ADT-ACS Manual and the ADT-LDM Manual for additional information. Connect ADT-ACS- and ADT-LDM- series devices to the CPU as shown in Figure A- (,$ &RQQHFWLRQV 5, making sure to install a 120 ohm terminating resistor on the last annunciator in the series.
Page 181 Connecting Annunciators $SSHQGL[ $ $QQXQFLDWRUV Unimode 400 Installation PN 50710:A 10/22/97 A-17...
Page 182 A-18 Unimode 400 Installation PN 50710:A 10/22/97...
Page 183 18-12 AWG wire, in conduit or outside of conduit. EIA-485 Connects to Twisted-shielded pair 6,000 (max) Belden 9860 (16 AWG) (power- ADT-LCD-80 or with a characteristic limited) to Annunciator impedance of 120 ohms. Control System 18 AWG minimum. (ACS) modules EIA-232 Connects to Twisted-shielded pair.
Page 184 Unimode 400 Installation PN 50710:A 10/22/97...
Page 185 This document lists ADT, Notifier, and System Sensor equipment that is compatible with the control panel. Also, refer to the Device Compatibility Document for compatible equipment. Table C-1 contains a list of ADT equipment that is compatible with the control panel: ADT-ABF-1 Annunciator Flush Box ADT-CAB-400AA AA-size cabinet...
Page 186 FFT-7S Fire Fighters Telephone RPT-485W EIA-485 Repeater (Wire) RPT-485WF EIA-485 Repeater (Wire/Fiber) FHS Fireman's Handset L20-300-BX Enclosure; recessed mount TR-500 Trim Ring for ADT-CAB-400AA L20-310-BX Enclosure; surface mount UDACT Universal Digital Alarm Communicator N-ARA-10 Agent Release Pull Station Transmitter N-ELR Assortment ELR Pack with Mounting...
Page 187 The CRT-2 communicates with the control panel through a protocol defined by thirteen groups of parameters. To access a parameter group, press the corresponding function key (F1-F13) as shown in Table D-1. You can then program parameters in each group. Enter the CRT-2 setup menu by pressing and holding the <Ctrl>...
Page 188 $SSHQGL[ ' &57 &RQILJXUDWLRQ You can also use the CPU EIA-232 port to upload and download the control panel 1RWH )RU LQVWUXFWLRQV RQ XVLQJ operating program, using Uni•Tility Upload/Download software. Download operations 8QL‡7LOLW\ 8SORDG'RZQORDG VRIWZDUH UHIHU WR WKH 8QL‡7LOLW\ that change the basic program of the control panel must be performed by responsible RQOLQH KHOS ILOHV service personnel in attendance at the control panel.
Page 189 The control panel can communicate with a remote terminal or computer connected to the CPU EIA-232 port. (Refer to Section 2, Installation, for installation information.) Set up the EIA-232 port for interactive operation or for monitoring only. Interactive operation requires that all equipment be UL-listed under UL Standard for Safety UL864 and be installed and set up as directed under Local Terminal Mode (LocT) or Local Monitor Mode (LocM).
Page 190 Operating Modes $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO Table E-1 summarizes the functions available with the Local Terminal mode: Function Lets you... Read Status • Display the status of an individual point (Detector, Module, Panel Circuit, or Zone). • Display a list of all the points in Alarm or trouble. •...
Page 191 Operating Modes $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO Functions, passwords, and special requirements of Remote Terminal Mode (RemT) are: 5HPRWH 7HUPLQDO 0RGH 5HP7 Read Status only. See Table E-3. Functions: Passwords: None Requirements: Use with UL EDP-listed terminals, including personal computers with UNI•TILITY Upload/Download software or terminal emulation software.
Page 192 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO This section shows how to do Read Status functions from a CRT-2. Function Lets you... Read Point Read the status of any point in the system (detectors, modules, panel circuits, software zones, and system parameters).
Page 193 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO From the Read Status menu, select option 1. The CRT-2 displays the following: Press $GGUHVV 6/& QXPEHU 1XPEHU 7\SH 'QQQ 0QQQ 3QQ =QQ IQQ 5Q RU 6Q WKHQ KLW (QWHU Enter the following: Enter the first letter of the device.
Page 194 Using the CRT-2 for Read Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO From the Read Status menu, select History-Step, option 4. This option lets you step through the history buffer one event at a time: 7KH ILUVW OLQH WKDW DSSHDUV GLVSOD\V WKH Press QXPEHU RI HYHQWV LQ WKH KLVWRU\ EXIIHU (9(17 +LVWRU\ 6WDUW...
Page 195 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO This section shows how to do Alter Status functions, Table E-5, from a CRT-2. Function Lets you... Disable Enable or disable detectors, modules, or panel circuits. Alarm/Pre-alarm Change the Alarm and pre-Alarm levels of any addressable detector in the system.
Page 196 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO From the Alter Status menu, select Disable, option 1. Disable lets you enable or disable detectors, modules, panel circuits, or zones: Press $GGUHVV 1XPEHU 6/& QXPEHU 'LVDEOH(QDEOH 7\SH 'QQQ 0QQQ 3QQ =QQ WKHQ (QWHU 67$786 &+$1*( 'LV(QD SRLQW $ :HG ...
Page 197 Using the CRT-2 for Alter Status $SSHQGL[ ( 7HUPLQDO ,QWHUIDFH 3URWRFRO This option lets you change the Alarm and Pre-Alarm levels of any addressable detector in the system. To do so, follow these steps. From the Alter Status menu, select option 2, Alarm/Pre-Alarm: Press 'HW $ODUP3UHDODUP OHYHO W\SH DGGUHVV 'QQQ WKHQ (QWHU 67$786 &+$1*(...
Page 198 Unimode 400 Installation PN 50710:A 10/22/97 E-10...
Page 199 FLUFXLWV FRQQHFWHG WR $'7$&05 $50 &50 &5( DQG /'05 PRGXOHV Power-limited PXVW EH LGHQWLILHG LQ WKH VSDFH Include the following... Components SURYLGHG RQ WKH FDELQHW GRRU ODEHO Modules with ADT-ACM-16AT AMG-1 ADT-LDM-32 power-limited circuits AEM-16AT AMG-2 LDM-E32 ADT-ACM-32A ADT-CPU-400 ADT-NIB-96...
Page 200 $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ 5HTXLUHPHQWV Power-limited Modules and Circuits Figure F-1 shows a typical wiring diagram for the control panel. The first two rows show rows of modules configured with at least a 0.25 inch separation between power-limited and nonpower-limited wiring. 3RZHUOLPLWHG &LUFXLWV 1RQSRZHUOLPLWHG 1RQSRZHUOLPLWHG...
Page 201 Power-limited Modules and Circuits $SSHQGL[ ) 8/ 3RZHUOLPLWHG :LULQJ 5HTXLUHPHQWV AC and battery wiring are not power-limited. Maintain at least 0.25 inches between power-limited and nonpower-limited circuit wiring. Install tie wraps and adhesive squares to secure the wiring. Figure F-2 shows a typical wiring diagram for a power supply: +DUQHVV WR WKH &38 $GKHVLYH VTXDUH DQG WLH ZUDSV IRU...
Page 202 Unimode 400 Installation PN 50710:A 10/22/97...
Page 203 Follow these guidelines when wiring the AC branch circuit current: • The control panel requires connection to a separate dedicated AC fire alarm circuit, which must be labeled “Fire Alarm.” • The AC power circuit must connect to the line side of the main power feed of the protected premises.
Page 204 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV Throughout these current calculation tables, “Primary” refers to the FACP primary source of AC power. “Secondary” refers to the FACP backup batteries (or any other 24 VDC uninterruptable, regulated power supply listed for Fire Protective Signaling and connected in place of the batteries).
Page 205 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV &DWHJRU\ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ &DOFXODWLRQ &ROXPQ 3ULPDU\ 1RQ)LUH $ODUP 3ULPDU\ )LUH $ODUP 6HFRQGDU\ 1RQ)LUH $ODUP &XUUHQW DPSV &XUUHQW DPSV &XUUHQW DPSV ; >FXUUHQW GUDZ@ 7RWDO ; >FXUUHQW GUDZ@ 7RWDO ;...
Page 206 Calculating the System Current Draws $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV Use Table G-3 to determine the maximum current requirements of secondary power source during fire alarm conditions. The result obtained from Table G-3 is the amount of current that the batteries must be able to supply to the fire alarm system. Use the result in Table G-4 to determine the size of the batteries needed for the fire alarm system.
Page 207 Part Cabinet Battery Size Voltage Rating Required Number Size 12 AH 12 volts PS-12120 ADT-CAB-A3, B3, C3, D3 25 AH 12 volts PS-12250 ADT-CAB-A3, B3, C3, D3 55 AH 12 volts PS-12550 BB-55 7DEOH * 6HOHFWLQJ WKH %DWWHU\ 6L]H Unimode 400 Installation PN 50710:A 10/22/97...
Page 208 Unimode 400 Installation PN 50710:A 10/22/97...
Page 209 Calculating the Battery Requirements $SSHQGL[ * 3RZHU 6XSSO\ &DOFXODWLRQV Unimode 400 Installation PN 50710:A 10/22/97...

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